Function concave up and down calculator

We have the graph of f(x) and need to determine the intervals where it's concave up and concave down as well as find the inflection points. Enjoy!

Function concave up and down calculator. Excel is a powerful tool that offers a wide range of functions and formulas to help users perform complex calculations, analyze data, and automate tasks. However, with so many opti...

Determine the intervals on which the given function is concave up or down and find the points of inflection. f(x) = (x^2 - 10)e^x; Determine the intervals on which the function is concave up or down and find the points of inflection. y=xe^(-3x) Determine the intervals on which the function is concave up or down and find the points of inflection.

Free Functions Concavity Calculator - find function concavity intervlas step-by-step ... A function basically relates an input to an output, there’s an input, a ...Cubic function. Steeper slope than quadratic. Odd symmetry. Concave up and down. Square root function. Equivalent to . Calculator warning: Use parentheses --- . Principal (positive) square root --- otherwise, no function. But, we must remember when we have that , . Concave down. Exponential function. Concave up. Horizontal asymptote at y = 0.Math. Calculus. Calculus questions and answers. determine where each function is increasing, decreasing, concave up, and concave down. With the help of a graphing calculator, sketch the graph of each function and label the intervals where it is increasing, decreasing, concave up, and concave down. A) y = x^2+ 5x, x ?Now that we know the second derivative, we can calculate the points of inflection to determine the intervals for concavity: f ''(x) = 0 = 6 −2x. 2x = 6. x = 3. We only have one inflection point, so we just need to determine if the function is concave up or down on either side of the function: f ''(2) = 6 −2(2)Use the Concavity Theorem to determine where the given function is concave up and where it is concave down. Also find all inflection points. G (w)=−4w2+16w+15 Concave up for all w; no inflection points Concave down for all w: no inflection points Concavo up on (−2,∞), concave down on (−∞,−2); inflection point (−2,−1) Concavo yp ...function-asymptotes-calculator. en. Related Symbolab blog posts. Functions. A function basically relates an input to an output, there's an input, a relationship and an output. For every input... Enter a problem. Cooking Calculators. Cooking Measurement Converter Cooking Ingredient Converter Cake Pan Converter More calculators.Explore math with our beautiful, free online graphing calculator. Graph functions, plot points, visualize algebraic equations, add sliders, animate graphs, and more. Concavity. Save Copy. Log InorSign Up. f x = x 3 − 6 x 2. 1. Drag the coordinate along the curve. ...

Anyway here is how to find concavity without calculus. Step 1: Given f (x), find f (a), f (b), f (c), for x= a, b and c, where a < c < b. Where a and b are the points of interest. C is just any convenient point in between them. Step 2: Find the equation of the line that connects the points found for a and b.When a function is concave up, the second derivative will be positive and when it is concave down the second derivative will be negative. Inflection points are where a graph switches concavity from up to down or from down to up. Inflection points can only occur if the second derivative is equal to zero at that point. About Andymath.comWhen the second derivative is negative, the function is concave downward. And the inflection point is where it goes from concave upward to concave downward (or vice versa). Example: y = 5x 3 + 2x 2 − 3x. Let's work out the second derivative: The derivative is y' = 15x2 + 4x − 3. The second derivative is y'' = 30x + 4.For functions de ned on non-open sets, continuity can fail at the boundary. In particular, if the domain is a closed interval in R, then concave functions can jump down at end points and convex functions can jump up. Example 1. Let C= [0;1] and de ne f(x) = (x2 if x>0; 1 if x= 0: Then fis concave. It is lower semi-continuous on [0;1] and ...Expert-verified. Determine the intervals on which the following function is concave up or concave down. Identify any inflection points. f (x) = 3x -2° +5 Determine the intervals on which the given function is concave up or concave down. Select the correct choice below and fill in the answer box (es) to complete your choice. (Simplify your answer.This problem has been solved! You'll get a detailed solution from a subject matter expert that helps you learn core concepts. See Answer. Question: Determine the intervals on which the following function is concave up or concave down. Identify any inflection points. f (x) = e * (x+1) Show transcribed image text. Here's the best way to solve it.Use a number line to test the sign of the second derivative at various intervals. A positive f " ( x) indicates the function is concave up; the graph lies above any drawn tangent lines, and the slope of these lines increases with successive increments. A negative f " ( x) tells me the function is concave down; in this case, the curve lies ...Determine the intervals on which the function is concave up or concave down. (Enter your answers using interval notation. Enter EMPTY or o for the empty set.) f (x) = (x - 8) (6 - x) concave up x concave down X Find the points of inflection. (Enter your answers as a comma-separated list.

We must first find the roots, the inflection points: f′′ (x)=0=20x3−12x2⇒ 5x3−3x2=0⇒ x2 (5x−3)=0. The roots and thus the inflection points are x=0 and x=35. For any value greater than 35, the value of 0">f′′ (x)>0 and thus the graph is convex. For all other values besides the inflection points f′′ (x)<0 and thus the graph ...Recall that the first derivative of the curve C can be calculated by dy dx = dy/dt dx/dt. If we take the second derivative of C, then we can now calculate intervals where C is concave up or concave down. (1) d2y dx2 = d dx(dy dx) = d dt(dy dx) dx dt. Now let's look at some examples of calculating the second derivative of parametric curves.Free functions calculator - explore function domain, range, intercepts, extreme points and asymptotes step-by-stepFind the open intervals where the function is concave upward or concave downward. Find any inflection points.Select the correct choice below and, if necessary, fill in the answer boxes to complete your choice.A. The function is concave up on and concave down on (Type your answers in interval notation. Use a comma to separate answers as needed.)B.The first derivative is parabola that has positive coefficient a. Parabolas with positive coefficient a ("happy" parabolas or concave) are negative between zeros and positive everywhere else. So our function is increasing when x<-2 and x>2. In order to determine where the function is concave up or down, we have to find the second derivative.

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Find step-by-step Biology solutions and your answer to the following textbook question: Determine where each function is increasing, decreasing, concave up, and concave down. With the help of a graphing calculator, sketch the graph of each function and label the intervals where it is increasing, decreasing, concave up, and concave down. Make sure that your graphs and your calculations agree ...For the following functions, (i) determine all open intervals where f (x) is increasing, decreasing, concave up, and concave down, and (ii) find all local maxima, local minima, and inflection points. Give all answers exactly, not as numerical approximations. (a) f (x)= x-2sinx for -2? < x < 2? There are 2 steps to solve this one.The concavity of a function is the convex shape formed when the curve of a function bends. There are two types of concavities in a graph i.e. concave up and concave down. How To Calculate the Inflection Point. The calculator determines the inflection point of the given point by following the steps mentioned below:Possible Answers: Correct answer: Explanation: The intervals where a function is concave up or down is found by taking second derivative of the function. Use the power rule which states: Now, set equal to to find the point (s) of infleciton. In this case, . To find the concave up region, find where is positive.A function is concave up (also called convex) on an interval I ⊂ R I ⊂ R if. f(ta + (1 − t)b) ≤ tf(a) + (1 − t)f(b) f ( t a + ( 1 − t) b) ≤ t f ( a) + ( 1 − t) f ( b) for all a, b ∈ I a, b ∈ I and for all t ∈ [0, 1] t ∈ [ 0, 1]. Geometrically, this simply means that the line connecting two points (a, f(a)) ( a, f ( a ...

Using the second derivative test, f(x) is concave up when x<-1/2 and concave down when x> -1/2. Concavity has to do with the second derivative of a function. A function is concave up for the intervals where d^2/dx^2f(x)>0. A function is concave down for the intervals where d^2/dx^2f(x)<0. First, let's solve for the second derivative of …Answer link. First find the derivative: f' (x)=3x^2+6x+5. Next find the second derivative: f'' (x)=6x+6=6 (x+1). The second derivative changes sign from negative to positive as x increases through the value x=1. Therefore the graph of f is concave down when x<1, concave up when x>1, and has an inflection point when x=1.Determine where each function is increasing, decreasing, concave up, and concave down. With the help of a graphing calculator, sketch the graph of each function and label the intervals where it is increasing, decreasing, concave up, and concave down. Make sure that your graphs and your calculations agree. y = − 2 x 2 + 3 y=\frac{-2}{x^{2}+3 ...Symbolab is the best calculus calculator solving derivatives, integrals, limits, series, ODEs, and more. What is differential calculus? Differential calculus is a branch of calculus that includes the study of rates of change and slopes of functions and involves the concept of a derivative.Find step-by-step Biology solutions and your answer to the following textbook question: Determine where each function is increasing, decreasing, concave up, and concave down. With the help of a graphing calculator, sketch the graph of each function and label the intervals where it is increasing, decreasing, concave up, and concave down. Make sure that your graphs and your calculations agree ...Step 1. For the graph shown, identify a) the point (s) of inflection and b) the intervals where the function is concave up or concave down. 5 X HE -10 -5 5 10 12 -10- a) The point (s) of inflection is/are (Type an ordered pair. Use a comma to separate answers as needed.) ce b) Identify the intervals where the function is concave up or concave ...Toolkit Functions. Name. Function. Graph. Constant. For the constant function f(x)=c f ( x) = c, the domain consists of all real numbers; there are no restrictions on the input. The only output value is the constant c c, so the range is the set {c} { c } that contains this single element. In interval notation, this is written as [c,c] [ c, c ...... function. f(x)=x4−3x3 f ... Concave up on (−∞,0) ( - ∞ , 0 ) since f''( ... Concave down on (0,32) ( 0 , 3 2 ) since ...Answer: Yes, the graph changes from concave-down to concave-up. 4. Use the trace command to approach x = -1. Look at the y-values on both sides of x = -1. Do the same for x = 2. a. Discuss what happens to the y-values on each side of x = -1. Answer: Students should see that the two function values on both sides of x = -1 are less than theWe say this function f f is concave up. Figure 4.34(b) shows a function f f that curves downward. As x x increases, the slope of the tangent line decreases. Since the derivative decreases as x x increases, f ′ f ′ is a decreasing function. We say this function f f is concave down.

Step 2: Take the derivative of f ′ ( x) to get f ″ ( x). Step 3: Find the x values where f ″ ( x) = 0 or where f ″ ( x) is undefined. We will refer to these x values as our provisional inflection points ( c ). Step 4: Verify that the function f ( x) exists at each c value found in Step 3.

Question: 4 Consider the function f(x)=ax3+bx where a>0. (a) Consider b>0. i. Find the x-intercepts. ii. Find the intervals on which f is increasing and decreasing. iii. Identify any local extrema. iv. Find the intervals on which f is concave up and concave down. (b) Consider b<0. i. Find the x-intercepts. ii. Find the intervals on which f is ...The Derivative Calculator lets you calculate derivatives of functions online — for free! Our calculator allows you to check your solutions to calculus exercises. It helps you practice by showing you the full working (step by step differentiation). The Derivative Calculator supports computing first, second, …, fifth derivatives as well as ...Advanced Math. Advanced Math questions and answers. For the following exercises, determine a. intervals where ff is increasing or decreasing, b. local minima and maxima of f,f, c. intervals where ff is concave up and concave down, and d. the inflection points of f. 226. f (x)=x^4-6x^3 228. f (x)=x+x^2-x^3 For the following exercises, determine ...Calculus. Find the Concavity f (x)=x^4-4x^3+2. f(x) = x4 - 4x3 + 2. Find the x values where the second derivative is equal to 0. Tap for more steps... x = 0, 2. The domain of the expression is all real numbers except where the expression is undefined. In this case, there is no real number that makes the expression undefined.The first derivative is parabola that has positive coefficient a. Parabolas with positive coefficient a ("happy" parabolas or concave) are negative between zeros and positive everywhere else. So our function is increasing when x<-2 and x>2. In order to determine where the function is concave up or down, we have to find the second derivative.Let's look at the sign of the second derivative to work out where the function is concave up and concave down: For \ (x. For x > −1 4 x > − 1 4, 24x + 6 > 0 24 x + 6 > 0, so the function is concave up. Note: The point where the concavity of the function changes is called a point of inflection. This happens at x = −14 x = − 1 4.Transcript. Inflection points are points where the function changes concavity, i.e. from being "concave up" to being "concave down" or vice versa. They can be found by considering where the second derivative changes signs. In similar to critical points in the first derivative, inflection points will occur when the second derivative is either ...

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Aug 21, 2016 ... I graphed this function in desmos. The graph looks like a quadratic function. Concave upward centred at 0. Which means slope change sign after 0 ...On what intervals the following equation is concave up, concave down and where it's inflection... On what interval is #f(x)=6x^3+54x-9# concave up and down? See all questions in Analyzing Concavity of a FunctionIt would be beneficial to give a function to a computer and have it return maximum and minimum values, intervals on which the function is increasing and decreasing, the locations of relative maxima, etc. The work that we are doing here is easily programmable. It is hard to teach a computer to "look at the graph and see if it is going up or down."Ex 5.4.19 Identify the intervals on which the graph of the function $\ds f(x) = x^4-4x^3 +10$ is of one of these four shapes: concave up and increasing; concave up and decreasing; concave down and increasing; concave down and decreasing. A function is graphed. The x-axis is unnumbered. The graph is a curve. The curve starts on the positive y-axis, moves upward concave up and ends in quadrant 1. An area between the curve and the axes in quadrant 1 is shaded. The shaded area is divided into 4 rectangles of equal width that touch the curve at the top left corners. The second partial derivative test tells us how to verify whether this stable point is a local maximum, local minimum, or a saddle point. Specifically, you start by computing this quantity: H = f x x ( x 0, y 0) f y y ( x 0, y 0) − f x y ( x 0, y 0) 2. Then the second partial derivative test goes as follows: If H < 0. ‍.function-asymptotes-calculator. en. Related Symbolab blog posts. Functions. A function basically relates an input to an output, there's an input, a relationship and an output. For every input... Enter a problem. Cooking Calculators. Cooking Measurement Converter Cooking Ingredient Converter Cake Pan Converter More calculators. Calculate the concavity of a function using the Concavity Calculator. Enter your function and the interval, and the calculator will display the concavity of the function, along with the first and second derivatives. Move down the table and type in your own x value to determine the y value. to save your graphs! Explore math with our beautiful, free online graphing calculator. Graph functions, plot points, visualize algebraic equations, add sliders, animate graphs, and more.Graphically, a function is concave up if its graph is curved with the opening upward (Figure 1a). Similarly, a function is concave down if its graph opens downward (Figure 1b). Figure 1. This figure shows the concavity of a function at several points. Notice that a function can be concave up regardless of whether it is increasing or decreasing.Similarly, a function is concave down if its graph opens downward (Figure \(\PageIndex{1b}\)). Figure \(\PageIndex{1}\) This figure shows the concavity of a function at several points. Notice that a function can be concave up regardless of whether it is increasing or decreasing. ….

Intervals Where Function is Concave Up and Concave Down Polynomial ExampleIf you enjoyed this video please consider liking, sharing, and subscribing.Udemy Co...Consider the following function. f ( x) = (4 − x) e−x. (a) Find the intervals of increase or decrease. (Enter your answers using interval notation.) increasing. decreasing. (b) Find the intervals of concavity. (Enter your answers using interval notation. If an answer does not exist, enter DNE.)Proposition A twice-differentiable function f of a single variable defined on the interval I is concave if and only if f ''(x) ≤ 0 for all x in the interior of I convex if and only if f ''(x) ≥ 0 for all x in the interior of I. Question: 4 Consider the function f(x)=ax3+bx where a>0. (a) Consider b>0. i. Find the x-intercepts. ii. Find the intervals on which f is increasing and decreasing. iii. Identify any local extrema. iv. Find the intervals on which f is concave up and concave down. (b) Consider b<0. i. Find the x-intercepts. ii. Find the intervals on which f is ... You should get an upward-shaped parabola. Conversely, if the graph is opening "down" then it's concave down. Connect the bottom two graphs and you should get a downward-shaped parabola. You can also determine the concavity of a graph by imagining its tangent lines. If all the tangent lines are below the graph, then it's concave up. If all the ...(Enter your answers using interval notation.) concave up concave down (d) Determine the locations of inflection points of f. Sketch the curve, then use a calculator to compare your answer. If you cannot determine the exact answer analytically, use a calculator. (Enter your answers as a comma-separated list.) x = Consider theThis graph determines the concavity and inflection points for any function equal to f(x). Green = concave up, red = concave down, blue bar = inflection point. Whether it's to pass that big test, qualify for that big promotion or even master that cooking technique; people who rely on dummies, rely on it to learn the critical skills and relevant information necessary for success. You can locate a function's concavity (where a function is concave up or down) and inflection points (where the concavity ... It implies that function varies from concave up to concave down or vice versa. In other words, it states that inflection point is the point in which the rate of slope changes in increasing to decreasing order or vice versa. These points are generally not local maxima or minima but stationary points. Concavity Function. Function concave up and down calculator, Solution: Since f′(x) = 3x2 − 6x = 3x(x − 2) , our two critical points for f are at x = 0 and x = 2 . We used these critical numbers to find intervals of increase/decrease as well as local extrema on previous slides. Meanwhile, f″ (x) = 6x − 6 , so the only subcritical number is at x = 1 . It's easy to see that f″ is negative for x ..., About this unit. The first and the second derivative of a function give us all sorts of useful information about that function's behavior. The first derivative tells us where a function increases or decreases or has a maximum or minimum value; the second derivative tells us where a function is concave up or down and where it has inflection points., Example 5.4.1. Describe the concavity of f(x) = x3 − x. Solution. The first dervative is f ′ (x) = 3x2 − 1 and the second is f ″ (x) = 6x. Since f ″ (0) = 0, there is potentially an inflection point at zero. Since f ″ (x) > 0 when x > 0 and f ″ (x) < 0 when x < 0 the concavity does change from down to up at zero, and the curve is ..., Critical point at x=1/sqrte, concave down on (0,1/e^("3/2")), concave up on (1/e^("3/2"),+oo), point of inflection at x=1/e^("3/2") > Finding critical points: For the function f(x), a critical point at x=c where f(c) exists is a point where either f'(c)=0 or f'(c) doesn't exist. Thus, to find critical values, we must find the derivative of the function. To do this to y=x^2lnx, we must use the ..., Teen Brain Functions and Behavior - Teen brain functions aren't like those of adults. Why do teens engage in risk-taking behaviors? Because the teen brain functions in a whole diff..., Positive Positive Increasing Concave up Positive Negative Increasing Concave down Negative Positive Decreasing Concave up Negative Negative Decreasing Concave down Table 4.6What Derivatives Tell Us about Graphs Figure 4.37 Consider a twice-differentiable function f over an open intervalI.Iff′(x)>0for allx∈I, the function is increasing overI., So: f (x) is concave downward up to x = −2/15. f (x) is concave upward from x = −2/15 on. And the inflection point is at x = −2/15. A Quick Refresher on Derivatives. In the previous …, Question: Given f (x)= (x−2)^2 (x−4)^2 , determine a. interval where f (x) is increasing or decreasing, b. local minima and maxima of f (x) c. intervals where f (x) is concave up and concave down, and d. the inflection points of f (x) . Sketch the curve, and then use a calculator to compare your answer. If you cannot determine the exact ..., "Quasi-concave functions: these functions have the property that the set of all points for which such a function takes on a value greater than any specific constant is a convex set (i.e., any two points in the set can be joined by a line contained completely within the set" That's a condition that this function (graphed) seem to be holding., This calculator will allow you to solve trig equations, showing all the steps of the way. All you need to do is to provide a valid trigonometric equation, with an unknown (x). It could be something simple as 'sin (x) = 1/2', or something more complex like 'sin^2 (x) = cos (x) + tan (x)'. Once you are done typing your equation, just go ahead and ..., 1. taking the second derivative I got x = 16 3 x = 16 3 as the critical point. I assume that you mean that you set f′′(x) = 0 f ″ ( x) = 0 and found a solution of x = 16 3 x = 16 3. This is not a critical point. Rather it is an inflection point. In other words, this is where the function changes from concave up to concave down (or vice ..., Question: use the first derivative and the second derivative test to determine where each function is increasing, decreasing, concave up, and concave down. y=x^3-4x^2+4x+3 x ER. There’s just one step to solve this., Determine the intervals on which the function is concave up or concave down. (Enter your answers using interval notation. Enter EMPTY or o for the empty set.) f (x) = (x - 8) (6 - x) concave up x concave down X Find the points of inflection. (Enter your answers as a comma-separated list., The concavity of the graph of a function refers to the curvature of the graph over an interval; this curvature is described as being concave up or concave down. Generally, a concave up curve has a shape resembling "∪" and a concave down curve has a shape resembling "∩" as shown in the figure below. Concave up., (W) Consider the function f (x) = a x 3 + b x where a > 0. (a) Consider b > 0. (i) Find the x-intercepts.(ii) Find the intervals on which f is increasing and decreasing. (iii) Identify any local extrema. (iv) Find the intervals on which f is concave up and concave down. (b) Consider b < 0. (i) Find the x-intercepts.(ii) Find the intervals on which f is increasing and decreasing., Just because it's concave-up to the left & right of 0 doesn't mean it's concave up at 0. Unlike y=x^2 and despite appearances on a graphing calc, y=x^4 is truly "flat" (neither conc-up nor -down) at 0. f''(x)=0 for all x for a line, which is not a failure but is the correct answer: flat at all points., 0:00 find the interval that f is increasing or decreasing4:56 find the local minimum and local maximum of f7:37 concavities and points of inflectioncalculus ..., 42. A function f: R → R is convex (or "concave up") provided that for all x, y ∈ R and t ∈ [0, 1] , f(tx + (1 − t)y) ≤ tf(x) + (1 − t)f(y). Equivalently, a line segment between two points on the graph lies above the graph, the region above the graph is convex, etc. I want to know why the word "convex" goes with the inequality in ..., When a function is concave up, the second derivative will be positive and when it is concave down the second derivative will be negative. Inflection points are where a graph switches concavity from up to down or from down to up. Inflection points can only occur if the second derivative is equal to zero at that point. About Andymath.com, Hence, what makes \(f\) concave down on the interval is the fact that its derivative, \(f'\), is decreasing. Figure 1.31: At left, a function that is concave up; at right, one that is concave down. We state these most recent observations formally as the definitions of the terms concave up and concave down., Convex curves curve downwards and concave curves curve upwards.. That doesn't sound particularly mathematical, though… When f''(x) \textcolor{purple}{> 0}, we have a portion of the graph where the gradient is increasing, so the graph is convex at this section.; When f''(x) \textcolor{red}{< 0}, we have a portion of the graph where the gradient is decreasing, so the graph is concave at this ..., function-shift-calculator. en. Related Symbolab blog posts. Functions. A function basically relates an input to an output, there's an input, a relationship and an output. For every input... Enter a problem. Cooking Calculators. Cooking Measurement Converter Cooking Ingredient Converter Cake Pan Converter More calculators., Given a curve y=f(x), a point of inflection is a point at which the second derivative equals to zero, f''(x)=0, and across which the second derivative changes sign. This means that the curve changes concavity across a point of inflection; either from concave-up to concave-down or concave-down to concave-up. In this section we learn how to find points of …, On what intervals the following equation is concave up, concave down and where it's inflection... On what interval is #f(x)=6x^3+54x-9# concave up and down? See all questions in Analyzing Concavity of a Function, Graphically, a function is concave up if its graph is curved with the opening upward (Figure 1a). Similarly, a function is concave down if its graph opens downward (Figure 1b). Figure 1. This figure shows the concavity of a function at several points. Notice that a function can be concave up regardless of whether it is increasing or decreasing., The graph of a function f is concave up when f ′ is increasing. That means as one looks at a concave up graph from left to right, the slopes of the tangent lines will be increasing. Consider Figure 3.4.1 (a), where a concave up graph is shown along with some tangent lines. Notice how the tangent line on the left is steep, downward, corresponding to a small value of f ′., The function f(x) = ln(3x²+7) is concave up on the interval (-∞,0) and concave down on the interval (0,∞), with an inflection point at x=0. Explanation: To determine the intervals on which the function f(x) = ln(3x²+7) is concave up or concave down and to identify any inflection points, we need to find its second derivative., Explore math with our beautiful, free online graphing calculator. Graph functions, plot points, visualize algebraic equations, add sliders, animate graphs, and more. Concavity | Desmos, The interval on the left of the inflection point is ???. On this interval f is (concave up or down) The interval on the right of the inflection point is ???. On this interval, f is (concave up or down.) I'm struggling calculating the second derivative and isolating for x to find the inflection points, can someone walk me through this problem ..., Given the function f (x)=x^2*e^ (8x) Determine the open interval (s) where the function is concave up. Determine the open interval (s) where the function is concave down. Determine any points of inflection. There are 2 steps to solve this one. Expert-verified. Share Share., f (x)=3 (x)^ (1/2)e^-x 1.Find the interval on which f is increasing 2.Find the interval on which f is decreasing 3.Find the local maximum value of f 4.Find the inflection point 5.Find the interval on which f is concave up 6.Find the interval on which f is concave down. Anyone can explain? I know the f' (x)=e^-x (3-6x)/2 (x)^ (1/2) calculus. Share., The concavity of a function is the convex shape formed when the curve of a function bends. There are two types of concavities in a graph i.e. concave up and concave down. How To Calculate the Inflection Point. The calculator determines the inflection point of the given point by following the steps mentioned below:, When a function is concave up, the second derivative will be positive and when it is concave down the second derivative will be negative. Inflection points are where a graph switches concavity from up to down or from down to up. Inflection points can only occur if the second derivative is equal to zero at that point. About Andymath.com